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Cepheids as Cosmology Tools

This graph illustrates the Cepheid period-luminosity relationship, which scientists use to calculate the size, age and expansion rate of the universe. The data shown are from NASA's Spitzer Space Telescope, which has made the most precise measurements yet of the universe's expansion rate by recalculating the distance to pulsating stars called Cepheids.

Cepheids are essential tools in cosmological-distance calculations thanks to what astronomers call their period-luminosity relationship. The timing, or period, of a Cepheid's pulses correlates with its inherit brightness, or luminosity, as shown on this graph. A longer pulse rate corresponds to a more luminous star. Once astronomers know how luminous a Cepheid is, they can compare that value to how bright it appears on the sky: the farther the object, the dimmer it will appear. By using a series of Cepheids and even farther objects of a different type, astronomers can determine the size of our universe.

Spitzer observed 10 Cepheids in the Milky Way (yellow dots) and 80 in one of our nearest satellite galaxies, the Large Magellanic Cloud (circled dots). At the infrared wavelengths used by the cameras operating on Spitzer, the dimming effects of dust on visible light are virtually non-existent. Moreover the scatter in the points about the period-luminosity relation is so small that single stars can be used to determine distances many times more precisely than from the ground and in the optical part of the spectrum. These two advantages alone have allowed researchers to use the Spitzer observations of Cepheids to securely recalibrate the size, age and expansion rate of the universe.

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